Agriculture Reference
In-Depth Information
Gonz´lez-Melendi P, Fern´ndez-Pacheco R, Coronado MJ, Corredor E, Testillano PS, Risue˜o
MC, P´rez-de-Luque A (2008) Nanoparticles as Smart Treatment-delivery Systems in Plants:
Assessment of Different Techniques of Microscopy for their Visualization in Plant Tissues.
Annals of Botany 101(1):187-195.
Haggerty GM, Bowman RS (1994) Sorption of inorganic anions by organo-zeolites. Environ Sci
Technol 28:452-458
Hossain KZ, Monreal M, Sayari A (2002) Controlled release of a plant growth regulator,
α
-naphthalene acetate from the lamella of Zn-Al layered double hydroxide complex. J Control
Release 8:417-427
Hossain KZ, Monreal M, Sayari K (2008) Adsorption of urease on PE-MCM-41 and its catalytic
effect on hydrolysis of urea. Colloid Surf B 62:42-50
Komarneni S (2010) Potential of nanotechnology in environmental soil science. In: Proc. the 9th
international conference of the East and Southeast Asia federation of soil science societies, pp
16-20
Kottegoda N, Munaweera I, Madusanka N, Karunaratne V (2011) A green, slow-release fertilizer
composition based on urea-modified hydroxyapatite nanoparticles encapsulated wood. Curr
Sci 101:1-7
Krishna BS, Murty DSR, Prakash BSJ (2001) Surfactant modified clay as adsorbent for chromate.
Appl Clay Sci 20:65-71
Lal R (2008) Soils and India
'
s food security. J Indian Soc Soil Sci 56:129-138
Li Z (2003) Use of surfactant-modified zeolite as fertilizer carriers to control nitrate release.
Micropor Mesopor Mater 61:181-188
Li Z, Bowman RS (1997) Effects on the sorption of cationic surfactant and chromate on natural
clinoptilolite. Environ Sci Technol 3:2407-2412
Li Z, Zhang Y (2010) Use of surfactant-modified zeolite to carry and slowly release sulfate.
Desalin Water Treat 21:73-78
Li Z, Anghel I, Bowman RS (1998) Sorption of oxyanions by surfactant modified zeolite. J Dispers
Sci Technol 19:843-857
Liu X, Zhang M (2005) Characteristics of nano-subnanocomposites and response of soil and plant
nutrition to them. Ph.D. Dissertation, Chinese Academy of Agricultural Sciences
Liu X, Zhao-bin F, Fu-dao Z, Shu-qing Z, XU-sheng HE (2005a) Responses of peanut to nano-
calcium carbonate. Plant Nutr Fert Sci 11:385-389
Liu X, Zhao-bin F, Fu-dao Z, Shu-qing Z, XU-sheng HE (2005b) Study on adsorption and
desorption properties of nano-kaoline to nitrogen, phosphorus, potash and organic carbon.
Sci Agric 38:102-109
Liu X, Zhao-bin F, Fu-dao Z, Shu-qing Z, XU-sheng HE (2006) Preparation and testing of
cementing and coating nano-subnanocomposites of slow/controlled-release fertilizer. Agric
Sci India 5:700-706
Mahajan P, Dhoke SK, Khanna AS (2011) Effect of nano-ZnO particle suspension on growth of
mung (
Vigna radiata
) and gram (
Cicer arietinum
) seedlings using plant Agar Method. J
Nanotechnol 2011:1-7
Manceau A, Nagy KL, Marcus MA, Lanson M, Geoffroy N, Jacquet T, Kirpichtchikova T (2008)
Formation of metallic copper nanoparticles at the soil-root interface. Environ Sci Technol
42:1766-1772
Manikandan A, Subramanian KS (2014) Fabrication and characterisation of nanoporous zeolite
based N fertilizer. Afr J Agric Res 9:276-284
Mohanraj J (2013) Effect of nano-zeolite on nitrogen dynamics and green house gas emission in
rice soil eco system. M. Tech. (Ag.) Thesis, TNAU, Coimbatore, India
Nair R, Varghese SH, Nair BG, Maekawa T, Yoshida Y, Sakthi D (2010) Nanoparticulate material
delivery to plants. Plant Sci 179:154-163
Navrotsky A (2004) Environmental nanoparticles. In: Schwarz, Contescu, C.I. (eds) Dekker
encyclopedia of nanoscience and nanotechnology, vol 2. New York, pp 1147-1155
